Method for driving a plurality of light emitting diodes and drive circuit

The invention claimed is: 1. A method, comprising: based on a plurality of duty cycles each associated with a respective one of a plurality of light emitting diodes (LEDs), determining a first set of drive schemes such that each drive scheme is associated with a respective one of the plurality of LEDs and is dependent on the duty cycle associated with the respective one of the plurality of LEDs; and in at least one drive cycle, driving each of the plurality of LEDs in accordance with the associated drive scheme of the first set, wherein each of the plurality of drive schemes includes one or more on-times each having a phase and a duration, wherein driving each of the plurality of LEDs in accordance with the associated drive scheme comprises driving each of the plurality of LEDs in an on-state or an off-state dependent on the respective drive scheme, and wherein determining the drive scheme of at least one of the plurality of LEDs comprises determining the drive scheme dependent on the drive scheme of another one of the plurality of LEDs. 2. The method of claim 1 , wherein determining the drive schemes of the first set comprises determining the drive schemes such that in the at least one drive cycle at least a predefined number of LEDs are driven in the on-state at the same time throughout the drive cycle. 3. The method of claim 2 , wherein the predefined number of LEDs is defined according to int(DC AVG ·n), where DC AVG is an average duty cycle of the plurality of LEDs, n is the number of the plurality of LEDs, and int(DC AVG ·n) is the integer of DC AVG ·n. 4. The method of claim 1 , wherein driving the plurality of LEDs in accordance with the drive scheme of the first set in the at least one drive cycle comprises: driving the plurality of LEDs in accordance with the drive scheme of the first set in a predefined number of successive drive cycles. 5. The method of claim 1 , wherein determining the drive scheme of at least one of the plurality of LEDs dependent on a drive scheme of another one of the plurality of LEDs comprises determining the drive schemes of n−1 LEDs dependent on a drive scheme of another one of the plurality of LEDs, wherein n is either the number of the plurality of LEDs or the number of LEDs having a duty cycle different from zero. 6. The method of claim 5 , wherein determining the drive schemes of the n−1 LEDs dependent on a drive scheme of another one of the plurality of LEDs comprises: defining an order of the plurality of LEDs such that each of the n−1 LEDs has a preceding LED in the order of LEDs; setting a drive scheme of a first LED in the order of LEDs, wherein the first LED is different from each of the n−1 LEDs; and determining the drive scheme of each of the n−1 LEDs dependent on the drive scheme of the respective preceding LED in the order of LEDs. 7. The method of claim 1 , wherein determining each drive scheme such that it is dependent on the duty cycle associated with the respective one of the plurality of LEDs comprises: determining each drive scheme such that an overall duration of the one or more on-times associated with the drive scheme is given by the respective duty cycle multiplied with a duration of the at least one drive cycle. 8. The method of claim 1 , further comprising: based on the plurality of duty cycles, determining a second set of drive schemes such that each drive scheme is associated with a respective one of the plurality of LEDs and is dependent on the duty cycle associated with the respective one of the plurality of LEDs; driving the plurality of LEDs based on the drive schemes of the second set in a first drive cycle of a set of several successive drive; and driving the plurality of LEDs based on the drive schemes of the first set in the remainder of the several successive drive cycles, wherein at least some of the drive schemes of the second set are further determined dependent on a difference between an average of the plurality of duty cycles and an average of the plurality of duty cycles in a drive cycle preceding the first drive cycle. 9. The method of claim 8 , wherein the several drive cycles comprise between 2 and 16 drive cycles. 10. A drive circuit, wherein the drive circuit is configured: based on a plurality of duty cycles each associated with a respective one of a plurality of light emitting diodes (LEDs), to determine a first set of drive schemes such that each drive scheme is associated with a respective one of the plurality of LEDs and is dependent on the duty cycle associated with the respective one of the plurality of LEDs; and in at least one of a plurality of drive cycles, to drive each of the plurality of LEDs in accordance with the associated drive scheme of the first set, wherein each of the plurality of drive schemes includes one or more on-times each having a phase and a duration, wherein driving each of the plurality of LEDs in accordance with the associated drive scheme comprises driving each of the plurality of LEDs in an on-state or an off-state dependent on the respective drive scheme, and wherein determining the drive scheme of at least one of the plurality of LEDs comprises determining the drive scheme dependent on the drive scheme of another one of the plurality of LEDs. 11. The drive circuit of claim 10 comprising: a power supply; a plurality of current sources each connected in series with one of the plurality of LEDs; and a controller configured to receive the plurality of duty cycles determine the first set of drive schemes based on the plurality of duty cycles and drive the current sources based on the first set of drive schemes in order to drive the plurality of LEDs based on the first set of drive schemes. 12. The drive circuit of claim 10 , wherein the drive circuit is configured to determine the drive schemes such that in the at least one drive cycle at least a predefined number of LEDs are driven in the on-state at the same time throughout the drive cycle. 13. The drive circuit of claim 12 , wherein the predefined number of LEDs is int(DC AVG ·n), where DC AVG is an average duty cycle of the plurality of LEDs, n is the number of the plurality of LEDs, and int(DC AVG ·n) is the integer of DC AVG ·n. 14. The drive circuit of claim 10 , wherein the drive circuit is configured to drive the plurality of LEDs in accordance with the drive scheme of the first set in a predefined number of successive drive cycles. 15. The drive circuit of claim 10 , wherein the drive circuit is configured to determine the drive schemes of n−1 LEDs dependent on a drive scheme of another one of the plurality of LEDs, wherein n is either the number of the plurality of LEDs or the number of LEDs having a duty cycle different from zero. 16. The drive circuit of claim 15 , wherein the drive circuit is configured to determine the drive schemes of the n−1 LEDs dependent on a drive scheme of another one of the plurality of LEDs by: defining an order of the plurality of LEDs such that each of the n−1 LEDs has a preceding LED in the order of LEDs; setting a drive scheme of a first LED in the order of LEDs, wherein the first LED is different from each of the n−1 LEDs; and determining the drive scheme of each of the n−1 LEDs dependent on the drive scheme of the respective preceding LED in the order of LEDs.